energy-efficiency opportunities / energy improvement / web-browsing workloads / Internet Users Than Wireline Users / energyefficient mobile web browsing / web browser page loading / energy needs / page-content processing time / energy-consuming / web browsers / web browsing / energy consuming / web browser / org/web/web.php / heterogeneous systems / web standards / energy behaviors / energy-efficient mobile web browsing / interactive smartphone applications / energy implications / energy savings / web browser performance / energy usage / energy / energy saving opportunity / computational processing capabilities / energy consumption / Web Browsing Yuhao Zhu / web developers / minimal energy consumption / energy tradeoff / lower processor energy consumption / energy requirements / web surfing / mobile web browsing / energy measurements / energy saving / mobile devices / Internet Archive / less energy / energy efficiency / energy models / energy-prediction models / energy model / /
OperatingSystem
Linux / Ubuntu / /
Organization
University of Texas at Austin / IEEE Department of Electrical / /
Person
B. Cascading / Vijay Janapa Reddi / /
Position
representative / /
ProgrammingLanguage
HTML / php / JavaScript / /
Technology
Hypertext Markup Language / Linux / dualcore ARM Cortex-A9 processor / smartphone / laptop computer / Cortex-A9 processors / mobile device / HTML / pdf / mobile devices / Ethernet / http / caching / DOM / Document Object Model / /
1 Exploiting Webpage Characteristics for Energy-Efficient Mobile Web Browsing Yuhao Zhu, Aditya Srikanth, Jingwen Leng, Vijay Janapa Reddi Member, IEEE Department of Electrical and Computer Engineering